Loss of p53 and mutational heterogeneity drives immune resistance in an autochthonous mouse lung cancer model with high tumor mutational burden

Mingrui Zhu; Jiwoong Kim; Qing Deng; Biagio Ricciuti; Joao V. Alessi; Buse Eglenen-Polat; Matthew E. Bender; Hai Cheng Huang; Ryan R. Kowash; Ileana Cuevas; Zachary T. Bennett; Jinming Gao; John D. Minna; Diego H. Castrillon; Mark M. Awad; Lin Xu; Esra A. Akbay

doi:10.1016/j.ccell.2023.09.006

Loss of p53 and mutational heterogeneity drives immune resistance in an autochthonous mouse lung cancer model with high tumor mutational burden

Mingrui Zhu, Jiwoong Kim, Qing Deng, Biagio Ricciuti, Joao V. Alessi, Buse Eglenen-Polat, Matthew E. Bender, Hai Cheng Huang, Ryan R. Kowash, Ileana Cuevas, Zachary T. Bennett, Jinming Gao, John D. Minna, Diego H. Castrillon, Mark M. Awad, Lin Xu, Esra A. Akbay

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

The role of tumor mutational burden (TMB) in shaping tumor immunity is a key question that has not been addressable using genetically engineered mouse models (GEMMs) of lung cancer. To induce TMB in lung GEMMs, we expressed an ultra-mutator variant of DNA polymerase-E (POLE)^P286R in lung epithelial cells. Introduction of Pole^P286R allele into Kras^G12D and Kras^G12D; p53^L/L (KP) models significantly increase their TMB. Immunogenicity and sensitivity to immune checkpoint blockade (ICB) induced by Pole is partially dependent on p53. Corroborating these observations, survival of NSCLC patients whose tumors have TP53^truncating mutations is shorter than those with TP53^WT with immunotherapy. Immune resistance is in part through reduced antigen presentation and in part due to mutational heterogeneity. Total STING protein levels are elevated in Pole mutated KP tumors creating a vulnerability. A stable polyvalent STING agonist or p53 induction increases sensitivity to immunotherapy offering therapeutic options in these polyclonal tumors.

Original language	English (US)
Pages (from-to)	1731-1748.e8
Journal	Cancer Cell
Volume	41
Issue number	10
DOIs	https://doi.org/10.1016/j.ccell.2023.09.006
State	Published - Oct 9 2023

Keywords

GEMM
Immunotherapy
Kras
TMB
TP53
antigen presentation
clonality
heterogeneity
mice
patient survival

ASJC Scopus subject areas

Oncology
Cancer Research

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Zhu, M., Kim, J., Deng, Q., Ricciuti, B., Alessi, J. V., Eglenen-Polat, B., Bender, M. E., Huang, H. C., Kowash, R. R., Cuevas, I., Bennett, Z. T., Gao, J., Minna, J. D., Castrillon, D. H., Awad, M. M., Xu, L., & Akbay, E. A. (2023). Loss of p53 and mutational heterogeneity drives immune resistance in an autochthonous mouse lung cancer model with high tumor mutational burden. Cancer Cell, 41(10), 1731-1748.e8. https://doi.org/10.1016/j.ccell.2023.09.006

Zhu, M, Kim, J, Deng, Q, Ricciuti, B, Alessi, JV, Eglenen-Polat, B, Bender, ME, Huang, HC, Kowash, RR, Cuevas, I, Bennett, ZT, Gao, J , Minna, JD , Castrillon, DH, Awad, MM, Xu, L & Akbay, EA 2023, 'Loss of p53 and mutational heterogeneity drives immune resistance in an autochthonous mouse lung cancer model with high tumor mutational burden', Cancer Cell, vol. 41, no. 10, pp. 1731-1748.e8. https://doi.org/10.1016/j.ccell.2023.09.006

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title = "Loss of p53 and mutational heterogeneity drives immune resistance in an autochthonous mouse lung cancer model with high tumor mutational burden",

abstract = "The role of tumor mutational burden (TMB) in shaping tumor immunity is a key question that has not been addressable using genetically engineered mouse models (GEMMs) of lung cancer. To induce TMB in lung GEMMs, we expressed an ultra-mutator variant of DNA polymerase-E (POLE)P286R in lung epithelial cells. Introduction of PoleP286R allele into KrasG12D and KrasG12D; p53L/L (KP) models significantly increase their TMB. Immunogenicity and sensitivity to immune checkpoint blockade (ICB) induced by Pole is partially dependent on p53. Corroborating these observations, survival of NSCLC patients whose tumors have TP53truncating mutations is shorter than those with TP53WT with immunotherapy. Immune resistance is in part through reduced antigen presentation and in part due to mutational heterogeneity. Total STING protein levels are elevated in Pole mutated KP tumors creating a vulnerability. A stable polyvalent STING agonist or p53 induction increases sensitivity to immunotherapy offering therapeutic options in these polyclonal tumors.",

keywords = "GEMM, Immunotherapy, Kras, TMB, TP53, antigen presentation, clonality, heterogeneity, mice, patient survival",

author = "Mingrui Zhu and Jiwoong Kim and Qing Deng and Biagio Ricciuti and Alessi, {Joao V.} and Buse Eglenen-Polat and Bender, {Matthew E.} and Huang, {Hai Cheng} and Kowash, {Ryan R.} and Ileana Cuevas and Bennett, {Zachary T.} and Jinming Gao and Minna, {John D.} and Castrillon, {Diego H.} and Awad, {Mark M.} and Lin Xu and Akbay, {Esra A.}",

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T1 - Loss of p53 and mutational heterogeneity drives immune resistance in an autochthonous mouse lung cancer model with high tumor mutational burden

AU - Zhu, Mingrui

AU - Kim, Jiwoong

AU - Deng, Qing

AU - Ricciuti, Biagio

AU - Alessi, Joao V.

AU - Eglenen-Polat, Buse

AU - Bender, Matthew E.

AU - Huang, Hai Cheng

AU - Kowash, Ryan R.

AU - Cuevas, Ileana

AU - Bennett, Zachary T.

AU - Gao, Jinming

AU - Minna, John D.

AU - Castrillon, Diego H.

AU - Awad, Mark M.

AU - Xu, Lin

AU - Akbay, Esra A.

PY - 2023/10/9

Y1 - 2023/10/9

N2 - The role of tumor mutational burden (TMB) in shaping tumor immunity is a key question that has not been addressable using genetically engineered mouse models (GEMMs) of lung cancer. To induce TMB in lung GEMMs, we expressed an ultra-mutator variant of DNA polymerase-E (POLE)P286R in lung epithelial cells. Introduction of PoleP286R allele into KrasG12D and KrasG12D; p53L/L (KP) models significantly increase their TMB. Immunogenicity and sensitivity to immune checkpoint blockade (ICB) induced by Pole is partially dependent on p53. Corroborating these observations, survival of NSCLC patients whose tumors have TP53truncating mutations is shorter than those with TP53WT with immunotherapy. Immune resistance is in part through reduced antigen presentation and in part due to mutational heterogeneity. Total STING protein levels are elevated in Pole mutated KP tumors creating a vulnerability. A stable polyvalent STING agonist or p53 induction increases sensitivity to immunotherapy offering therapeutic options in these polyclonal tumors.

AB - The role of tumor mutational burden (TMB) in shaping tumor immunity is a key question that has not been addressable using genetically engineered mouse models (GEMMs) of lung cancer. To induce TMB in lung GEMMs, we expressed an ultra-mutator variant of DNA polymerase-E (POLE)P286R in lung epithelial cells. Introduction of PoleP286R allele into KrasG12D and KrasG12D; p53L/L (KP) models significantly increase their TMB. Immunogenicity and sensitivity to immune checkpoint blockade (ICB) induced by Pole is partially dependent on p53. Corroborating these observations, survival of NSCLC patients whose tumors have TP53truncating mutations is shorter than those with TP53WT with immunotherapy. Immune resistance is in part through reduced antigen presentation and in part due to mutational heterogeneity. Total STING protein levels are elevated in Pole mutated KP tumors creating a vulnerability. A stable polyvalent STING agonist or p53 induction increases sensitivity to immunotherapy offering therapeutic options in these polyclonal tumors.

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KW - Immunotherapy

KW - Kras

KW - TMB

KW - TP53

KW - antigen presentation

KW - clonality

KW - heterogeneity

KW - mice

KW - patient survival

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ER -

Loss of p53 and mutational heterogeneity drives immune resistance in an autochthonous mouse lung cancer model with high tumor mutational burden

Abstract

Keywords

ASJC Scopus subject areas

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